mobile: add whisper client (#15922)

This commit is contained in:
Eugene Valeyev 2018-09-03 18:30:47 +03:00 committed by Felix Lange
parent cc2b39bbd1
commit 6fc8494620
3 changed files with 294 additions and 2 deletions

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@ -138,7 +138,9 @@ func (ec *EthereumClient) SubscribeNewHead(ctx *Context, handler NewHeadHandler,
handler.OnNewHead(&Header{header}) handler.OnNewHead(&Header{header})
case err := <-rawSub.Err(): case err := <-rawSub.Err():
handler.OnError(err.Error()) if err != nil {
handler.OnError(err.Error())
}
return return
} }
} }
@ -227,7 +229,9 @@ func (ec *EthereumClient) SubscribeFilterLogs(ctx *Context, query *FilterQuery,
handler.OnFilterLogs(&Log{&log}) handler.OnFilterLogs(&Log{&log})
case err := <-rawSub.Err(): case err := <-rawSub.Err():
handler.OnError(err.Error()) if err != nil {
handler.OnError(err.Error())
}
return return
} }
} }

195
mobile/shhclient.go Normal file
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@ -0,0 +1,195 @@
// Copyright 2017 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
// Contains a wrapper for the Whisper client.
package geth
import (
"github.com/ethereum/go-ethereum/whisper/shhclient"
whisper "github.com/ethereum/go-ethereum/whisper/whisperv6"
)
// WhisperClient provides access to the Ethereum APIs.
type WhisperClient struct {
client *shhclient.Client
}
// NewWhisperClient connects a client to the given URL.
func NewWhisperClient(rawurl string) (client *WhisperClient, _ error) {
rawClient, err := shhclient.Dial(rawurl)
return &WhisperClient{rawClient}, err
}
// GetVersion returns the Whisper sub-protocol version.
func (wc *WhisperClient) GetVersion(ctx *Context) (version string, _ error) {
return wc.client.Version(ctx.context)
}
// Info returns diagnostic information about the whisper node.
func (wc *WhisperClient) GetInfo(ctx *Context) (info *Info, _ error) {
rawInfo, err := wc.client.Info(ctx.context)
return &Info{&rawInfo}, err
}
// SetMaxMessageSize sets the maximal message size allowed by this node. Incoming
// and outgoing messages with a larger size will be rejected. Whisper message size
// can never exceed the limit imposed by the underlying P2P protocol (10 Mb).
func (wc *WhisperClient) SetMaxMessageSize(ctx *Context, size int32) error {
return wc.client.SetMaxMessageSize(ctx.context, uint32(size))
}
// SetMinimumPoW (experimental) sets the minimal PoW required by this node.
// This experimental function was introduced for the future dynamic adjustment of
// PoW requirement. If the node is overwhelmed with messages, it should raise the
// PoW requirement and notify the peers. The new value should be set relative to
// the old value (e.g. double). The old value could be obtained via shh_info call.
func (wc *WhisperClient) SetMinimumPoW(ctx *Context, pow float64) error {
return wc.client.SetMinimumPoW(ctx.context, pow)
}
// Marks specific peer trusted, which will allow it to send historic (expired) messages.
// Note This function is not adding new nodes, the node needs to exists as a peer.
func (wc *WhisperClient) MarkTrustedPeer(ctx *Context, enode string) error {
return wc.client.MarkTrustedPeer(ctx.context, enode)
}
// NewKeyPair generates a new public and private key pair for message decryption and encryption.
// It returns an identifier that can be used to refer to the key.
func (wc *WhisperClient) NewKeyPair(ctx *Context) (string, error) {
return wc.client.NewKeyPair(ctx.context)
}
// AddPrivateKey stored the key pair, and returns its ID.
func (wc *WhisperClient) AddPrivateKey(ctx *Context, key []byte) (string, error) {
return wc.client.AddPrivateKey(ctx.context, key)
}
// DeleteKeyPair delete the specifies key.
func (wc *WhisperClient) DeleteKeyPair(ctx *Context, id string) (string, error) {
return wc.client.DeleteKeyPair(ctx.context, id)
}
// HasKeyPair returns an indication if the node has a private key or
// key pair matching the given ID.
func (wc *WhisperClient) HasKeyPair(ctx *Context, id string) (bool, error) {
return wc.client.HasKeyPair(ctx.context, id)
}
// GetPublicKey return the public key for a key ID.
func (wc *WhisperClient) GetPublicKey(ctx *Context, id string) ([]byte, error) {
return wc.client.PublicKey(ctx.context, id)
}
// GetPrivateKey return the private key for a key ID.
func (wc *WhisperClient) GetPrivateKey(ctx *Context, id string) ([]byte, error) {
return wc.client.PrivateKey(ctx.context, id)
}
// NewSymmetricKey generates a random symmetric key and returns its identifier.
// Can be used encrypting and decrypting messages where the key is known to both parties.
func (wc *WhisperClient) NewSymmetricKey(ctx *Context) (string, error) {
return wc.client.NewSymmetricKey(ctx.context)
}
// AddSymmetricKey stores the key, and returns its identifier.
func (wc *WhisperClient) AddSymmetricKey(ctx *Context, key []byte) (string, error) {
return wc.client.AddSymmetricKey(ctx.context, key)
}
// GenerateSymmetricKeyFromPassword generates the key from password, stores it, and returns its identifier.
func (wc *WhisperClient) GenerateSymmetricKeyFromPassword(ctx *Context, passwd string) (string, error) {
return wc.client.GenerateSymmetricKeyFromPassword(ctx.context, passwd)
}
// HasSymmetricKey returns an indication if the key associated with the given id is stored in the node.
func (wc *WhisperClient) HasSymmetricKey(ctx *Context, id string) (bool, error) {
return wc.client.HasSymmetricKey(ctx.context, id)
}
// GetSymmetricKey returns the symmetric key associated with the given identifier.
func (wc *WhisperClient) GetSymmetricKey(ctx *Context, id string) ([]byte, error) {
return wc.client.GetSymmetricKey(ctx.context, id)
}
// DeleteSymmetricKey deletes the symmetric key associated with the given identifier.
func (wc *WhisperClient) DeleteSymmetricKey(ctx *Context, id string) error {
return wc.client.DeleteSymmetricKey(ctx.context, id)
}
// Post a message onto the network.
func (wc *WhisperClient) Post(ctx *Context, message *NewMessage) (string, error) {
return wc.client.Post(ctx.context, *message.newMessage)
}
// NewHeadHandler is a client-side subscription callback to invoke on events and
// subscription failure.
type NewMessageHandler interface {
OnNewMessage(message *Message)
OnError(failure string)
}
// SubscribeMessages subscribes to messages that match the given criteria. This method
// is only supported on bi-directional connections such as websockets and IPC.
// NewMessageFilter uses polling and is supported over HTTP.
func (wc *WhisperClient) SubscribeMessages(ctx *Context, criteria *Criteria, handler NewMessageHandler, buffer int) (*Subscription, error) {
// Subscribe to the event internally
ch := make(chan *whisper.Message, buffer)
rawSub, err := wc.client.SubscribeMessages(ctx.context, *criteria.criteria, ch)
if err != nil {
return nil, err
}
// Start up a dispatcher to feed into the callback
go func() {
for {
select {
case message := <-ch:
handler.OnNewMessage(&Message{message})
case err := <-rawSub.Err():
if err != nil {
handler.OnError(err.Error())
}
return
}
}
}()
return &Subscription{rawSub}, nil
}
// NewMessageFilter creates a filter within the node. This filter can be used to poll
// for new messages (see FilterMessages) that satisfy the given criteria. A filter can
// timeout when it was polled for in whisper.filterTimeout.
func (wc *WhisperClient) NewMessageFilter(ctx *Context, criteria *Criteria) (string, error) {
return wc.client.NewMessageFilter(ctx.context, *criteria.criteria)
}
// DeleteMessageFilter removes the filter associated with the given id.
func (wc *WhisperClient) DeleteMessageFilter(ctx *Context, id string) error {
return wc.client.DeleteMessageFilter(ctx.context, id)
}
// GetFilterMessages retrieves all messages that are received between the last call to
// this function and match the criteria that where given when the filter was created.
func (wc *WhisperClient) GetFilterMessages(ctx *Context, id string) (*Messages, error) {
rawFilterMessages, err := wc.client.FilterMessages(ctx.context, id)
if err != nil {
return nil, err
}
res := make([]*whisper.Message, len(rawFilterMessages))
copy(res, rawFilterMessages)
return &Messages{res}, nil
}

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@ -26,6 +26,7 @@ import (
"github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/rlp" "github.com/ethereum/go-ethereum/rlp"
whisper "github.com/ethereum/go-ethereum/whisper/whisperv6"
) )
// A Nonce is a 64-bit hash which proves (combined with the mix-hash) that // A Nonce is a 64-bit hash which proves (combined with the mix-hash) that
@ -334,3 +335,95 @@ func (r *Receipt) GetLogs() *Logs { return &Logs{r.receipt.Logs} }
func (r *Receipt) GetTxHash() *Hash { return &Hash{r.receipt.TxHash} } func (r *Receipt) GetTxHash() *Hash { return &Hash{r.receipt.TxHash} }
func (r *Receipt) GetContractAddress() *Address { return &Address{r.receipt.ContractAddress} } func (r *Receipt) GetContractAddress() *Address { return &Address{r.receipt.ContractAddress} }
func (r *Receipt) GetGasUsed() int64 { return int64(r.receipt.GasUsed) } func (r *Receipt) GetGasUsed() int64 { return int64(r.receipt.GasUsed) }
// Info represents a diagnostic information about the whisper node.
type Info struct {
info *whisper.Info
}
// NewMessage represents a new whisper message that is posted through the RPC.
type NewMessage struct {
newMessage *whisper.NewMessage
}
func NewNewMessage() *NewMessage {
nm := &NewMessage{
newMessage: new(whisper.NewMessage),
}
return nm
}
func (nm *NewMessage) GetSymKeyID() string { return nm.newMessage.SymKeyID }
func (nm *NewMessage) SetSymKeyID(symKeyID string) { nm.newMessage.SymKeyID = symKeyID }
func (nm *NewMessage) GetPublicKey() []byte { return nm.newMessage.PublicKey }
func (nm *NewMessage) SetPublicKey(publicKey []byte) {
nm.newMessage.PublicKey = common.CopyBytes(publicKey)
}
func (nm *NewMessage) GetSig() string { return nm.newMessage.Sig }
func (nm *NewMessage) SetSig(sig string) { nm.newMessage.Sig = sig }
func (nm *NewMessage) GetTTL() int64 { return int64(nm.newMessage.TTL) }
func (nm *NewMessage) SetTTL(ttl int64) { nm.newMessage.TTL = uint32(ttl) }
func (nm *NewMessage) GetPayload() []byte { return nm.newMessage.Payload }
func (nm *NewMessage) SetPayload(payload []byte) { nm.newMessage.Payload = common.CopyBytes(payload) }
func (nm *NewMessage) GetPowTime() int64 { return int64(nm.newMessage.PowTime) }
func (nm *NewMessage) SetPowTime(powTime int64) { nm.newMessage.PowTime = uint32(powTime) }
func (nm *NewMessage) GetPowTarget() float64 { return nm.newMessage.PowTarget }
func (nm *NewMessage) SetPowTarget(powTarget float64) { nm.newMessage.PowTarget = powTarget }
func (nm *NewMessage) GetTargetPeer() string { return nm.newMessage.TargetPeer }
func (nm *NewMessage) SetTargetPeer(targetPeer string) { nm.newMessage.TargetPeer = targetPeer }
func (nm *NewMessage) GetTopic() []byte { return nm.newMessage.Topic[:] }
func (nm *NewMessage) SetTopic(topic []byte) { nm.newMessage.Topic = whisper.BytesToTopic(topic) }
// Message represents a whisper message.
type Message struct {
message *whisper.Message
}
func (m *Message) GetSig() []byte { return m.message.Sig }
func (m *Message) GetTTL() int64 { return int64(m.message.TTL) }
func (m *Message) GetTimestamp() int64 { return int64(m.message.Timestamp) }
func (m *Message) GetPayload() []byte { return m.message.Payload }
func (m *Message) GetPoW() float64 { return m.message.PoW }
func (m *Message) GetHash() []byte { return m.message.Hash }
func (m *Message) GetDst() []byte { return m.message.Dst }
// Messages represents an array of messages.
type Messages struct {
messages []*whisper.Message
}
// Size returns the number of messages in the slice.
func (m *Messages) Size() int {
return len(m.messages)
}
// Get returns the message at the given index from the slice.
func (m *Messages) Get(index int) (message *Message, _ error) {
if index < 0 || index >= len(m.messages) {
return nil, errors.New("index out of bounds")
}
return &Message{m.messages[index]}, nil
}
// Criteria holds various filter options for inbound messages.
type Criteria struct {
criteria *whisper.Criteria
}
func NewCriteria(topic []byte) *Criteria {
c := &Criteria{
criteria: new(whisper.Criteria),
}
encodedTopic := whisper.BytesToTopic(topic)
c.criteria.Topics = []whisper.TopicType{encodedTopic}
return c
}
func (c *Criteria) GetSymKeyID() string { return c.criteria.SymKeyID }
func (c *Criteria) SetSymKeyID(symKeyID string) { c.criteria.SymKeyID = symKeyID }
func (c *Criteria) GetPrivateKeyID() string { return c.criteria.PrivateKeyID }
func (c *Criteria) SetPrivateKeyID(privateKeyID string) { c.criteria.PrivateKeyID = privateKeyID }
func (c *Criteria) GetSig() []byte { return c.criteria.Sig }
func (c *Criteria) SetSig(sig []byte) { c.criteria.Sig = common.CopyBytes(sig) }
func (c *Criteria) GetMinPow() float64 { return c.criteria.MinPow }
func (c *Criteria) SetMinPow(pow float64) { c.criteria.MinPow = pow }